Computer based method and a system for controlling an industrial process

1. A computer based method of controlling an industrial process, including the steps of measuring the values of at least one process variable, measuring a measurable disturbance in the process, estimating an inner state of the process by means of a state space model and based on the measured values of said process variable, the measurable disturbance, and a control signal, based on a first and a second control signal, controlling the process, performing a first prediction of future deviations of at least one process variable with regard to the estimated inner state of the process, providing said first control signal based on said first prediction of future deviations by means of a first control law, performing a second prediction of future deviations of said process variable with regard to said disturbance but without regard to the measured value of said at least one process variable and, providing said second control signal based on said second prediction of future deviations by means of a second control law.

2. A method according to claim 1 , wherein one or more process parameters in the process are controlled with regard to the control signals provided by means of said first and second control law.

3. A method according to claim 1 , wherein the control signals provided by means of the first and second control law are added to each other, and the control of said parameter or parameters is executed with regard to the sum thereof.

4. A method according to claim 3 , wherein a minimum value and a maximum value are set for said sum, and that the first and second control signal are added sequentially to each other in a predetermined order.

5. A method according to any one of claims 1 , wherein the predictions used by the first control law are based on measurements of a first and/or a second process variable, the second process variable being more readily accessible and/or more instantly responsive to non-measured disturbances in the process than the first process variable.

6. A method according to claim 5 , wherein it is the future deviation of the first process variable which is predicted and compensated for by means of said first and second control laws.

7. A method according to claim 1 , wherein it comprises the further step of predicting a future deviation of said process variable with regard to a change of a set point value for said process variable, but without regard to the measured values of said at least one process variable, and providing a third control signal based on said prediction by means of a third separate control law.

8. A method according to claim 7 , wherein a process parameter in the process is controlled with regard to the control signals provided by means of said first, second and third control laws.

9. A method according to claim 8 , wherein the control signals provided by the first, second, and third control laws are added to each other, and that the control of said parameter or parameters is executed with regard to the sum thereof.

10. A method according to claim 9 , wherein a minimum value and a maximum value are set for said sum, and that the control signals are added sequentially to each other in a predetermined order.

11. A method according to claim 10 , wherein said parameter or parameters is/are controlled by directing a signal representative to the sum of the control signals to one or more operative units for affecting said process parameter or parameters.

12. A method according to claim 1 , wherein said measurements comprise any one of or a combination of in-line, on-line, or lab-measurements, and that at least said control laws define a software in a computer.

13. A computer based system for controlling an industrial process, comprising means for estimating an inner state of the process based on a measured value of at least one process variable, a measured value of a measurable disturbance in the process, and a control signal, based on a first and a second control signal, controlling the process, means for performing a first prediction of future deviations of one process variable based on the estimated inner state, comprising a first control law for providing said first control signal based on said first prediction, and means for performing a second prediction of future deviations of said process variable with regard to the measured value of the disturbance in the process, but without regard to the measured value of said at least one process variable, comprising a separate second control law for providing said second control signal based on said second prediction.

14. A system according to claim 13 , wherein it comprises a means for adding the control signals provided by the first and second control law for the purpose of providing a sum, with regard to which one or more process parameters are controlled.

15. A system according to claim 14 , wherein said adding means is arranged so as to add the control signals sequentially in a predetermined order, but not letting the sum thereof go beyond a range delimited by a minimum value and a maximum value.

16. A system according to claim 13 , wherein said means for estimating an inner state of the process estimates the inner state based on the measurement of a first process variable and a second process variable which is more easily accessible and/or more instantly responsive than the first variable to a non-measured disturbance in the process.

17. A system according to claim 16 , wherein it is the future deviation of the first process variable which is minimized by means of said first and second control laws.

18. A system according to any one of claims 17 , wherein it comprises a means (FFSP) for predicting a future deviation of said process variable (y 1 ) with regard to a change of a set point value for said process variable but without regard to the measured values of said at least one process variable, said means (FFSP) comprising a separate, third control law for providing a third control signal based on said prediction.

19. A system according to claim 14 , wherein the adding means is arranged to add the control signals provided by the first, second, and third control laws for the purpose of providing a sum with regard to which said one or more process parameters are controlled.

20. A system according to claim 19 , wherein said adding means is arranged to add the control signals sequentially in a predetermined order, but not letting the sum thereof go beyond a range delimited by a minimum value and a maximum value.

21. A system according to claim 13 , wherein it comprises means for directing a signal representing a sum of the control signals provided by said control laws to one or more operative units for affecting one or more process parameters.

22. A system according to claim 13 , wherein it comprises one or more means for measuring said process variables and disturbances, in-line, on-line or through lab measurements in order to provide said control laws with signals corresponding to the results of the measurements.

23. A system according to claim 13 , wherein at least said control laws define software in a computer.

24. A computer program code element comprising computer code means for enabling a processor arranged in a computer based system for controlling an industrial process, wherein it enables said processor to carry out the steps of: receiving data input representing a measurement of at least one process variable, receiving a second data input representing a measurable disturbance, estimating an inner state of the process by means of a state space model and based on said received data input representing a measurement of at least process variable, said received data representing a measurable disturbance, and a control signal, based on a first and a second control signal, controlling the process, performing a first prediction of future deviations of at least one process variable with regard to the estimated inner state, providing said first control signal, based on said first prediction of future deviations by means of a first control law, performing a second prediction of future deviations of said process variable with regard to the disturbance but without regard to the measured value of said at least one process variable, and providing said second control signal based on said second prediction by means of a second control law.

25. A computer program code element according to claim 24 contained in a computer readable medium.